DE1075574B - Process for purifying silane - Google Patents

Description

GERMAN

The invention relates to a method for purifying silane used for the recovery of silicon shall be.

It is known to use silicon to be used in the manufacture of semiconductor devices obtained by decomposing gaseous silane. This method has the advantage that, because the Thoroughly remove impurities from the reagents used in the manufacture of the silane let, very pure silicon can be obtained.

A contamination of what is intended for the stated purpose, giving rise to great difficulties Silicon is boron. Very small amounts of this can be added to the silane through diborane.

In a preferred process for obtaining silicon by thermal decomposition of silane, the splitting takes place as soon as the silane is present at a molecular concentration below normal. To achieve this, the silane is mixed with an inert gas, for example argon, in the decomposition chamber. Furthermore, the silane is often flushed out of the reaction chamber during its production by means of a flowing inert or oxygen-free gas. When using such gases it is important that they are not contaminated by gaseous compounds of boron. __ .... . _t _

Diborane may be made of all of these gases in the manner corresponds '_' be removed, that the gases are passed through a zone in which the temperature has a value such that the diborane splits into boron and hydrogen. This also applies to the removal of boron compounds from silane, since the cleavage temperature of the diborane is far below the cleavage temperature of the silane.

The present invention now provides for an economical method of removal of gaseous boron compounds from gases used in the extraction of very pure silicon aims.

The method according to the invention for purifying silane suitable for obtaining the purest silicon is characterized in that water vapor is added to the gaseous silane and the mixture stored in a storage container until the gaseous boron compounds present as impurities are hydrolyzed.

The invention is based on the drawing, which is a schematic representation of an apparatus for cleaning of silane gas is described in more detail.

In the drawing, a storage container 1 and a gas washing bottle 2 are not connected to the between one shown useful silane generator and a method for purifying silane

Applicant:

International Standard Electric Corporation, New York, N.Y. (V. St. A.)

Representative: Dipl.-Ing. H. Ciaessen,

Stuttgaxt-Zuffenhausen ,. Hellmuth-Hirth-Str. 42,

Patent attorney

Claimed priority:
Great Britain. 13 September 1957

Eric Langley Bush, London,
has been named as the inventor

Decomposition apparatus also not shown running Connection line ^ connected.

The pipe 3 connects the storage container 1 to a pump, not shown, which is used for suction the air before the introduction of the silane is used.

The manometer 4 is used to measure the gas pressure in the container. Before the gas washing bottle 2 charged or is set, taps 5 and 6 are closed and tap 7 is opened, and whatever Any silane that is still present is removed by means of a pump connected to the pipe 8. The same The pump is also used to prevent the gas washing bottle 2 from being switched on again and before the Silane to suck the air. The silane is fed to the apparatus via the inlet pipe 9 and is via the outlet pipe 10 is fed to the decomposition device. The addition of the water vapor takes place on in the following way:

With open taps 5, 6, 11 and 12 and closed taps T ₁ 13 and 14, the silane flows from the pipe 9 over the water of the bottle 2 to the reservoir 1. The amount of water absorbed when flowing through the bottle 2 can be changed by changing the Flow velocity can be changed. The absorbed water vapor reaches the storage container with the gas. The taps 5, 6, 11 and 12 are then closed and the mixture of silane and water vapor is left in the container 1 until the hydrolysis of the gaseous boron compound has been carried out. When the purified silane is used

* ■ "* - ■» '909 730/441

If splitting into silicon and hydrogen is required, the taps 12, 13 and 14 are opened and the gas is passed through the outlet pipe of the device to the decomposition device. It then becomes the Removal of possibly existing arsine and phosphine impurities using an activated carbon trap, which is kept at a temperature of -80 ° C, and at the same time also the still existing water vapor is removed.

The flow rate and the gas washing bottle are preferably adjusted so that about 0.1 to 1 percent by volume of water vapor after the storage container 1 is added to the leading silane. About the hydrolysis of the gaseous boron compounds To be carried out with the steam, one or more days are required. When the water vapor content the stoichiometric amount required for the reaction with the gaseous boron compounds exceeds, the rate at which the hydrolysis takes place also increases. The preferred However, the amount of water vapor is in the range of 0.1 to 1 percent by volume and has therefore been used many times - greater than the stoichiometric amount. It has been shown that a further increase in the amount of water vapor brings no significant improvement.

example

Silane contaminated with diborane was admixed with about 0.2% by volume of water vapor by passing it through the gas washing bottle 2. The presence of diborane was determined by removing a certain amount from the mixture from time to time and decomposing it to form a crystal nucleus. A single crystal was then grown on this seed crystal. A crystal grown from an amount of silane removed before the addition of water vapor showed a P-type resistivity of 24 ohm / cm ³ . An amount of gas withdrawn from the reservoir 1 after 24 hours gave a crystal whose P-type resistivity was 1000 ohm / cm ³ , and a crystal from an amount of gas withdrawn after 48 hours was 2000 ohm / cm ³ . This provided proof of the reduction in the boron content by the water vapor.

It is believed that the lowering of the boron content is due to the formation of a non-volatile hydrolysis product is due. This assumption seems to be confirmed by the following experiment have: a diborane-argon mixture which contained 100 parts of diborane per 1,000,000 parts of the mixture, a trace of water vapor was added. After 2 hours, only 1 part of diborane was found are, while in the case of a mixture of the same composition, to which no water vapor has been added 100 parts of diborane were still present even after a week.

It should be mentioned that silane is also hydrolyzed by steam. But it has been established that only a negligibly small amount of silane is affected at room temperature. Therefore the diborane can be removed by means of the method according to the present invention without this any appreciable loss of silane occurs.

Claims (3)

PATENT CLAIMS 1. Process for the purification of silane, which is intended for the production of the purest silicon, characterized in that water vapor is added to the silane gas and the mixture in one Storage container is stored until the gaseous boron compounds present as impurities are hydrolyzed. 2. The method according to claim 1, characterized in that the mixture of silane gas and water vapor is stored for at least 24 hours at room temperature. 3. The method according to claim 1 and 2, characterized in that the silane gas is an amount of water vapor 0.1 to 1 volume percent of the amount of silane gas is added. Legacy Patents Considered:
German Patent No. 1 028 543. 1 sheet of drawings © 909 730/441 2.60